Juice extractor



Aug; 8, 1939. L. MYERS 2,168,430

JUICE EXTRAGTOR Filed on. s, 1934 s sheets-she t 1 1 Aug. 8, 1939; L. MYERS 2,168,430

JUICE EXTRACTOR Filed 001;. 6, 1934 v 5 Sheets-Shet 2 Aug. 8; 1939. L. MYERS 2,168,430

I JQI E EXTRACTOR Filed Oct. 6, 1954 S ShQets-Sheet :s

frzuerz2b% Patented Aug. 8, 1939 UNITED STATES PATENT OFFICE 3 Claims.

This invention relates to juice extractors, and more particularly has reference to a device for expressing the juice of fruits, suchascitrus fruits.

The prior devices of this general character have taken various forms, such as rotatable means for de-pulping one-half of a citrus fruit, pivoted members for squeezing'a half of a fruit to express the juice, and in some instances means for simultaneously cutting and squeezing an entire fruit. All such prior devices, how-ever, have presented certain objectionable features.

In most instances, an inordinate amount of manual labor is involved in the operation of the device, particularly where it is necessary to first cut the fruit prior to the operation of the device. Even where the prior devices have automatically cut the fruit, there is usually a certain amount ofpulp, seed and rind oil expressed along with the juice, thereby necessitating the straining of the juice. This has resulted from the fact that the knives employed heretofore for the cutting operation have passed entirely through the fruit, thus macerating the pulp and opposite portions of the rind.

Also, the prior devices have been dangerous in operation, and have been constructed with little regard for the safety of the operator. This is particularly true in the so-called rotating type of device, but the element of danger is also present in other forms.

Furthermore, the prior devices have been relatively insanitary, or rather, have been difficult to cleanse. This has resulted from the construction of such prior devices, and particularly from the fact that the parts exposed to the fruit and juice have not been capable of ready disassembly in order to thoroughly wash and soak such parts.

There has also resulted some loss of juice with most of the prior devices, inasmuch as there has been a tendency for the juice to squirt upwardly and out of the device, and even where the'device is of the compression type the juice is apt to leak by the upper compression member.

In addition to the labor involved in manually slicing the fruit, as mentioned above, all the prior devices have required an operator in constant attendance. In other words, it has been impossible for an operator to insert a whole fruit in the apparatus and then merely turn a switch to complete the operation. Furthermore, the fruit, after expression of the juice, has not been readily removed from the prior devices.

Another objection to devices heretofore used has resided in the factthat they are constructed for the purpose of operating upon an average fruit, and there has been no means of accommodating fruits of other sizes or characteristics,

such as, for instance, thickness of the rind, resiliency of the fruit, etc.

To overcome the above disadvantages is one of the objects of my invention.

Another object of my invention is to devise an apparatus which is entirely automatic in operation, into which the fruit may be readily fed and removed.

Yet another object of my invention is to provide a relatively inexpensive device constructed in accordance with simple and sound mechanical principles, and which possesses a long life of operation.

Still another object of my invention is toprovide a sanitary device in which the exposed parts may be readily cleansed.

With these and other objects in view which may be incident to my improvements, the inven- 2 tion consists in the parts and combinations to be hereinafter set forth and claimed, with the understanding that the several necessary elements comprising my invention may be varied in construction, proportions and arrangement without departing from the spirit and scope of the appended claims.

In order to make my invention more clearly understood, I have shown in the accompanying drawings means for carrying the same into practical effect without limiting the improvements in their useful applications to the particular constructions which, for the purpose of explanation, have been made the subject of illustration.

In the drawings:

Figure 1 is a frontal elevational view of a device embodying my invention.

Figure 2 is a view partly in section and partly in elevation, taken along the line 2--2 of Figure 1.

Figure 3 is a top plan view of my device.

Figure 4 is a top plan view of the cup for holding the fruit.

Figure 5 is a top plan view of the knife cup.

Figure 6 is a detail view, taken along the line 6-6 of Figure 5, showing the cooperation of the fruit cup and knife cup.

Figure 7 is a view along the line of Figure 3.

Figure 8 is a detail view of the guiding means for the plunger.

Figure 9 is ,a detail elevational view of the switch mechanism, with the switch in position for the commencement of a squeezing operation.

Figure 10 is a view along the line I 0I0 of Figure 9.

Figure 11 is a view along the line lI-II of Figure 9.

I shall describe my invention with reference to its application to the squeezing of citrus fruits, but it will of course be obvious that it may operate upon other materials.

Referring particularly to Figure 1, it will be noted that there is provided a-casing, designated generally by the numeral I. The casing I is preferably made up from a light weight alloy, such as aluminum, or some other suitable material, which may be readily cleaned and polished. It will of course be appreciated that in a device of this character, sanitation is essential, and also it is desirable that the apparatus be readily maintained in a polished condition. I The casing may be cast, or stamped, or formed in some other appropriate manner.

The casing I is preferably made up with a body portion 2. An extension 3 may be provided to the rear of the body portion 2 for the purpose of housing and supporting. a motor, as hereafter described. Extending upwardly from the body portion 2 is a .neck 4, which may be provided with a tapering rear wall 5.

The casing may be detachably secured to a base 6 (by suitable means not disclosed). Access to the interior of the casing may therefore be secured by merelyremoving the base from the casing. To further-facilitate access to themterior, I provide acut out section and a cover plate "I therefor on the'front of the body portion 2. The cover plate may be secured to the casing by-means of screws 8-or some other suitable fastenings.

The casing I is formed with acup or receptacle 9 extending from the front thereof. The'cup 9 is provided with-a central discharge outlet I I and with a'base' I2 sloping toward such outlet.

A cup I3, which I designate the knife cup, and which is provided with a circumferential flange I4, is adapted to fit within the cup 9. It will be noted that the base of the cup I3 corresponds to the base'l2 of the cup 9, and is provided with a central discharge port and an annular flange I5 which extends: through'the outlet port I I of the cup 9.

The cup I3 is provided with a plurality of serrated knife blades'fdesignated generally I 6, which radiate 'fromthe outlet of the cup. As best shown in Figures 5 and 6,.each' of the knife blades is made up by bending a stamping to form a base portion IT, a perpendicular flange I8 and the blade proper I9. The base portion is secured to the knife cup I3 by means of rivets 2| or other suitable fastening means. It will be noted that while the base of the cup I3 slopes downwardly toward the flange IS, the blades I9 and flanges I8 are horizontal along their upper edges. Although these edgesmight be inclined, if desired, I have found it preferable to maintain them horizontaL-sothat the pressed fruit will be held .flat, rather than concave or convex.

A cup 22 is nestedwithin the knife cup I3, and is provided with a flange 23,adapted toffit over the flange. I4, of .theknife cup. As best, shown in Figure 2, the base24 of cup 22 is flat.

In addition to the support offered by the flange 23, the cup 22 receives additional support by virtue of the flanges III, as shown in Figure 6. It will be observed that the flanges I8 contact with the base 24 of the cup. As best shown in Figure 4, the base is provided with slots 25 which register with the blades I9, and permit the passage of the latter therethrough, as shown in Figure 2.

It will be noted that the blades I9 project only a relatively short distance above the base 24 of the fruit cup, and in actual practice I prefer that this projection be not so great that the knives penetrate the entire thickness of the fruit, even when in flattened position. In other words, I prefer that the knives I9 merely pass through the lower rind and a slight distance into the pulp. This thereby prevents maceration of the pulp,

and to that extent decreases the possibility of pulp and seeds being expressed along with the juice.

While I have shown six radial knives I6, and a corresponding number of radial slots 25, it will of course be obvious that these may be varied in number and in arrangement, under certain conditions.

The slots 25 may provide a certain amount of clearance with the blades I9, asshown in Figure 6, and thereby permit the outflow of a certain amount of juice from the cup 22 into cup I3. Additional outlets fromcup 22, however, are provided by means of radial slots 26 and 21,-as well as centrally arranged apertures 28.

I provide diametrically opposed cars 29 extending from the flange 23 in order to facilitate removal of the cup 22 from cup I3, and also to prevent the necessityof an operator touching that portion of the apparatus contacting with the fruit or expressed juices. The ears 29 fit into depressions or recesses in the cup I3 (not shown) in order to align slots 25 with blades I9. This of course provides a safety factor in the operation of the device. I

It will be noted that the cups I3 and 22 may be withdrawn from the cup or receptacle I2, and also from each other. mits of the ready cleansing of these parts of the'device, and particularly to be noted in the ease with which the fruit, after expression of the juice, may be removed from the device. It is merely necessary to-grasp one of the ears 29 and thereby remove cup 22 from cup I 3, and the 'fruit may then be disposed of by merely turning the cup to an inverted position. This not only insures sanitation, but also provides a safety factor, inasmuch as there is no danger of injury to the operator because of the knives I6 or any of the moving parts.

I have provided a plunger, designated generally 3I, which is adapted to cooperate with the elements just described to cut, squeeze and flatten any fruit to be acted upon. This plunger is composed of a disc 32 provided with recesses 33 upon its lower, and engaging, face, which are adapted to register with the knife blades I9. In normal operation the knife blades do not enter the grooves 33 and the grooves merely receive the upper part of the rind which is forced therein by virtue of the blades. In being so forced into thegrooves 33, the upper part of the rind is normally ruptured, and thereby permits the flattening of the spherical rind. Another important function of the, slots 33 is to receive the blades I9 in the event that the plunger is lowered when there is no fruit in the cup 22. This, of course,

prevents breakage, or at least dulling, of the blades.

The disc 32 fits within cup 22 with a minimum amount of clearance. This is'to prevent the escape of any juice upwardly and around the disc This of course per- 32 during a' squeezing operation. Asa further plunger.

Extending from the upper face of disc 32 is a stem 35. As best shown in Figure '1, a channel 36 is drilled axially of the stem for the purpose of receiving means for locking the plunger to an operating arm. There is positioned in the lower part of the channel 36 a coil spring 31 having one end seated at the base of the channel and the other adapted to bear against a block 38 which is reciprocable in channel 36. The block 38 is cut away as at 39, and a pin 4| passes through the stem and rests within the recess 39. It will be noted that the pin 4| thereby limits the reciprocation of block 38 within channel 36.

The upper end of block 38 is provided with an extension 42 which fits within a corresponding channel in an operating arm 43. A pin 44 passes through the arm 43 and the extension 42 to connect these two elements. The stem 35 is cut away, as at 45, to permit the stem 35 to be raised with respect to arm 43,

so that my device may accommodate fruits of different sizes or characteristics, and also relieves the driving mechanism of undue loads imposed upon it at the bottom of a stroke of the plunger. If a fruit of undue size or of undue rind thickness is operated upon, the spring 31 flexes at the bottom of the plungers downward stroke, thereby permitting the continuance of the arm 43 to its normal maximum lower position without the imposition of excessive strain upon the power mechanism. Of course, as soon as the pressure on plunger 3| is relieved, the spring 31 urges the plunger to the position shown in Figure '1. It will be appreciated that by varying the tension of the spring 31, an accurate control can be obtained over the pressure that is to be applied by the plunger.

The arm 43 is bent, as at 46, to form a neck portion 41. The arm 43 and neck 41 may be threaded for a portion of its length or, as shown in Figure 2, a separate threaded arm 48 may be secured to the neck 41. The threaded arm 48 may be provided with a reduced extension 49 which is adapted to fit within a channel drilled in the neck. A pin 5| may pass through the neck and reduced extension 49 to secure the cups 222 and I3 from cup 9 when desired. By

providing for the swiveling of the plunger, the

extent to which it must be raised after a pressing operation is of course decreased.

To effect the swiveling of the plunger and. to insure proper guiding for the plunger during its downward movement, I provide a slot 52 at the rear of the neck 41. As best shown in Figure 8, the slot 52 extends longitudinally of the neck 41 for most of its length, but at the base it is angularly disposed, as indicated at 53.

The upper part of the neck 4 is provided with a boss 54 which extends from the rear tapering wall 5. The boss 54 serves as a bearing for the neck 41. A channel 55 is drilled from the rear of the boss 54, and its forward portion is reduced as at 56. A pin 51 fits within the channel 55, and the pin has a reduced extension 58 which fits within the reduced channel 56, and extends into the groove 52 of the neck. The pin is maintained in proper position by a coil spring 59 which in turn is held in place by a screw 6| threaded in the rear end of the channel 55.

Further guiding means may be provided in the front of the neck 4 of the body member. As best shown in Figure 1, a block 62 may be mounted on the neck 41 directly under the arm 43. The block 62 is adapted to slide in a slot 63 cut in the front of the neck 4, thereby serving as a guide for the plunger during its reciprocation. It will be noted that the slot 63 is enlarged as at 64 to permit of the swinging of the arm 43 at the top of a stroke, and the block 62 may be provided with a face 65 which corresponds to the contour of such enlarged portion of the slot.

It will therefore be noted that during the major part of its reciprocation the plunger 3| is aligned with the cup 9, but that at the top of each stroke the plunger 3| swings to one side and out of alignment with the cup. This is of course effected by the reduced extension 58 of pin 51 running in the slot at the rear of the neck 41. During the lower part of reciprocation by the plunger the extension 58 will be in the longitudinally extending part of the slot 52, but when the plunger is raisedto its'upper limits the extension 58 rides in the angular part 53 of the slot 52, thereby swiveling the plunger 3| out of alignment with the cup. It will be noted that the boss 54 is provided with a downwardly depending skirt 66 which forms an elongated bearing or sleeve for the neck 41.

As best shown in Figure 2, an electric motor 61, or other suitable source of power, is supported by a bracket 68, which in turn is suspended from the top of the extension 3 of the casing. If desired, a flange 89 may extend inwardly from the casing in order to form additional support for the motor. Bolts 1|, or other fastening means, may be employed to secure the motor in position.

As best shown by the solid lines in Fig. 2 and the dotted lines in Figure 3, the bracket 68 may be provided with an extension 12 in order to support a suitable bearing for the armature shaft 13 of the motor. A worm 14 may be keyed on the shaft 13 and adapted to mesh with a 8| for the purpose of maintaining the nut within the bearing.

It will therefore be observed that operation of the motor 61, through the Worm I4 and worm gear 15, causes a rotation of nut I8. Inasmuch as nut 18 is rotatively secured in the bearing 11, and in view of the fact that block 62 and extension 58 prevent rotation of arm 48, plunger 3| is raised or lowered, as the case might be.

The lower end of threaded arm 48 is provided with a centrally disposed channel 82, into the lower end of which a plug 83 may be screwed. The plug 83 is centrally drilled to receive a shaft 84, provided at one end with a plunger 85 which is adapted to slide in the channel 82. The plug 83 maintains the plunger 85 within channel 82', but permits of relative displacement therein. The lower end of shaft 84 is provided with a head 88 which is fixed on the shaft by means of a nut 81. The shaft 84, and its head 88, are adapted to actuate a reversible switch for the motor 81. The provision of shaft 84 effects an economy of space, for, as will be hereinafter seen, it is not necessary for the head 86 to move the same distance as plunger 3| in order to operate the switch.

The switch is made up of a block 88 which is secured to one wall of the body portion 2, as shown in Figures 9 and 10. The block 88 is recessed as at 89, and is provided with two stationary contact points 9| and 92. A wire 93 is connected to contact point 9|, and a wire 94 is connected to contact point 92. Both of these wires run to the motor 81, and, as shown by Figure 9, wire 93 is connected to the motor so that the motor is rotated in a direction to lower the plunger. Wire 94, on the other hand, sets up a circuit whereby the motor is rotated in a direction to cause a raising of the plunger.

An arm 95 is pivoted in the recessed portion 89, as at 98. The arm 95 is provided with a contact 91 adapted to cooperate with contact 9|, and a contact 98 adapted to engage contact 92. The contacts 91 and 98 are connected by a metallic strip 99, or some other suitable conductor, to which is connected one of the lead lines I8| from the source of power. The other lead line runs directly to one of the poles of the motor. Mounted upon the arm 95 is a bracket I82 provided with sloping arms I83 and I84. As shown in Figure 9, the arm I 83 is longer than arm I84. When the arm 95 is pivoted so that contacts 9| and 91 engage, it will be noted that arm I83 lies in the path of head 88 on the latters downward stroke; and when contacts 92 and 98 engage, arm I 84 lies in the path of head 88 on its upward stroke.

Arm 95 is provided with an offset portion I85, in which there is an elongated slot I86. The slot I88 is adapted to receive a pin I8! which is secured to an arm of a bell crank I88. The bell cr'ank I88 is pivoted to block 88, as at I89, and the arm II 8 of the bell crank extends through the wall of the casing 2 to afford a lever that may be grasped by the operator. It will therefore be observed that arm 95 may be oscillated by the bell crank I88, so that either of the contacts 91 or 98 may be caused to engage its corresponding stationary contact.

The offset portion I85 is provided with a high point III, which, when the arm 95 is'in inoperative position, is horizontally aligned with pivot 96. In this position the high point II I compresses a spherical-headed or bullet-shaped plunger II2, which lies within a channel I13 drilled in block 88. A coil spring 4 urges the plunger I I2. into contact with high point I I I,

or the adjacent face of the offset portion I85. A nut I I5 isthreaded into the open end of channel H3 and maintains the spring 4 in position and under proper tension.

It will therefore be observed that when arm 95 is thrown from one position toward the other, the high point III first depresses plunger 2, and then, after passing beyond the plunger, the plunger springs the arm to the opposite position. Therefore, the high point III and plunger I89 provide for. a snap-switching action. It will of course be appreciated that when the arm 95 is in neutral position the high point III merely depresses the plunger H2, and. the switch remains .in this position until the bell crank I88 throws either contact 91 or 98 into engagement with its corresponding stationary contact, to thereby start the motor in the desired direction of rotation.

The cooperation of the head 88 and arms I83 and I84 is believed to be apparent. Assuming that the plunger 3| is in retracted position, such as shown in Figure 1, the lever |I8 may be depressed so that contact 91 engages contact 9|. The motor is then started-in a direction so that the plunger 3| is lowered. As the plunger 3| continues its downward movement, head 88 engages arm I83. However, it will be noted that the head 88 is in an overrunning connection with threaded arm 48, by virtue of channel 82. Therefore, the arm 95 is not immediately thrown upon initial engagement of the head 86 with arm I83.

It is not until the plunger 85 engages the upper end of channel 82 that the arm 95 is thrown. At such time as plunger 85 abuts channel 82, however, the arm 95 is thrown a sufiicient distance so that high point III passes to the opposite side of plunger I89.

The spring tension on the plunger serves to throw the arm 95 so that contact 88 engages contact 92. This results in a reversal of the direction of rotation of the motor, and the plunger 3| thereby commences to rise.

When the plunger3| has been elevated to such a position that head 86 engages arm I84, the pivoted arm 95 is again thrown so that contact 98 no longer engages contact 92. However, inasmuch as arm I84 is abbreviated, its engagement by head 86 is not sufficient to throw high point I beyond the center of plunger ||2. In other words, when head 88 on its upward stroke engages arm I 84, the switch is merely opened, but is not thrown sufficiently to reverse the motor. Therefore, the operation of the device is stopped with the plunger 3| in raised and swiveled position.

Of course, it is obvious that the motor may be stopped at any point in the operation of the device by merely throwing lever I I 8 so that high point III engages plunger 2. Likewise the motor may be started from any position of the plunger by throwing one or the other pair of contacts into engagement, depending upon the direction desired.

The operation of my device is believed to be apparent from the foregoing. With the plunger 3| initially in the positions shown in Figures 1, 2 and 3, a whole fruit, such as an orange, is placed in the fruit cup 22 and the lever H8 is depressed. This throws the switch so that contact 91 engages contact 9| and the motor 81 commences operation. Through worm I4, Worm gear I5, and nut 18, the threaded arm 48 is lowered. At the commencement of the operation the extension 58 is in the slot 53, as shown in Figure 8, andin the initial lowering of the arm, the plunger 3I is swung so that it isdirectly over the cup 22.

.As the plunger 3| engages the top of the orange, the knife blades I6 out the rind at those points engaged by the knives. As pointed out above, the knives out substantially only the lower part of the rind, but this is sufficient to permit the expression of juice from the orange. Continued pressure by the plunger 3I results in a flattening of the orange, and the upper part of the rind is broken along the lines described by the grooves 33 in the plunger.

The annular groove 34 prevents the escape of the orange juice past the plunger, and all of the juice passes downwardly through the slots 26 and 21 and the apertures 28 of cup 22. This juice, upon striking the sloping base of knife cup I3, flows toward the central discharge outlet and passes out through the flange I into the receptacle provided for the juice.

At the lower part of the downward stroke, the spring 31, which is located in stem 35, is compressed, and thereby cushions the plunger at the base of the stroke. This spring has a sufficient tension, however, to insure that there is an adequate and thorough pressing of the orange, and at the same time relieves the motor 61 and its associated gearing of any excessive strain, particularly when the orange may be of a size larger than usual. As heretofore pointed out, the pulp and seeds remain in the rind, and only the juice is expressed in the operation. This of course avoids the necessity of straining the expressed juice.

Toward the end of the stroke, the head 86 contacts with arm I03, and the plunger 85 at the opposite end of shaft 84 rides upwardly in the channel 82 until it abuts against the top of that channel. At this time the head 86 is pressed against the arm I03 with sufiicient force so that the pivoted arm 95 is rocked so that high point I I I passes the center of plunger I09. The plunger, by virtue of spring II4, completes the throw of the switch so that contact 98 engages contact 92. This reverses the motor, and the plunger 3I is raised.

At the top of the upstroke the slot 53 and extension 58 cause the plunger 3| to be swung around to a position such as shown in Figure 1, so that it no longer lies over the cup- 9. At the very top of the stroke, head 86 engages arm I04, causing the pivoted arm 95 to rotate so that the contact of points 92 and 98 is broken. As pointed out above, arm I04 is not sufficiently long to throw arm 95 so that high point III passes to the opposite side of plunger H2. The throw is only enough to break the contact between points 92 and 98, and therefore the motor is merely stopped, rather than reversed. Of course, reversal of the motor at the top of the stroke may be effected by elongating arm I94 sufficiently.

The ease with which the flattened rind may be removed, and a fresh fruit inserted is believed to be obvious. It will merely be necessary to grasp one of the lips 29, and raise the cup 22 out of cup I3. Cup 22 may then be merely flipped to rid it of the rind, and may then be quickly reinserted into cup I3 together with a fresh fruit.

Upon completion of a pressing operation, or a series of such operations, the apparatus, and more particularly those parts contacting with the fruit or the juice, may be readily cleansed.

To accomplish this it is merely necessary to remove the cups 22 and I3 and wash each of these separately. The cup 9 and the base of plunger 3'I may also be easily washed in order to remove any portions ofthe juice or fruit that may adhere thereto. The device may therefore be maintained in a spotless condition at all times, thereby not only insuring the sanitation of the device but also maintaining its attractive appearance.

The advantages of my invention are believed to be obvious; In the first place, it will be noted that it is of comparatively simple construction, requiring a minimum of movable parts. The apparatus is built in accordance with sound mechanical principles, and there is comparatively little wear imposed upon the elements, and consequently little necessity for repairs or replacements.

Furthermore, the operation of the device is of the utmost simplicity, and possesses outstanding time and labor economies. Its principle of operation, the construction of the various elements, and the arrangement of parts, are such that no skill is necessary and a minimum of time is consumed in operating the device.

Its efilciency is of course apparent, for substantially all of the juice is expressed, and at the same time the pulp and seeds are retained within the rind of the fruit. As a consequence, pure juice, free from all foreign matter, is obtained.

The sanitation of the device is readily apparent, not only because of the ease with which it may be cleansed but also in view of the fact that the juice, as well as those parts touched by the juice, are not exposed to contact by humans.

Furthermore, safety of the operator is assured, inasmuch as it would be practically impossible for the operator to be injured in the operation of the device.

I will not attempt to enumerate the various changes and modifications that may be made in the structure of the elements and the arrangement. It will of course be obvious that various modifications may be made, all of which fall within the scope of my concept. I desire that my invention will be defined merely by the appended claims.

I claim:

I. In a device for extracting the juice of fruit, a receptacle and a plunger rectilinearly reciprocable therein, a cup member removably seated in the receptacle and provided with a blade extending longitudinally of the cup and located therein, another cup removably seated within the first mentioned cup member, said last mentioned cup being provided with an ear and having an approximately flat bottom, the plunger having an approximately flat bottom to substantially fit the bottom of the second mentioned cup, and supporting means in the bottom of the first mentioned cup member and rising therefrom to support the bottom of the second cup and prevent it from being bent downwardly by the pressure of the fruit.

2. In a juice extractor, a receptacle; a plunger rectilinearly reciprocable therein; a cup-like member having a substantially flat, radially slotted bottom removably seated in the receptacle; upwardly extending radial blades, circumferentially spaced, extending through the radial slots in the bottom of the cup-like member; and supporting means between the blades for supporting the bottom of the cup-like member.

3. In a juice extractor, a support; a receptacle projecting laterally therefrom, said receptacle having an inclined bottom provided with a discharge outlet at its lowest portion; a. cup-like member fitting in and conforming to said recepfirst cup-like member and having, in its bottom, radial slots, circumferentially arranged, and po= sitioned to slide over the blades, the bottom of the second cup-like member being adapted to rest on and be supported by the upwardly extending supports projecting from the bottom of the first mentioned cup-like member; and a reciprocable plunger adapted to register with and reciprocate in the second cup-like member to force fruit against the upwardly projecting w blades and squeeze the juice from the fruit.

LOUIS MYERS. 

